#!/usr/bin/env python3
# -*- coding: utf-8 -*-
# ******************************************************************************
#
#  Project:  GDAL
#  Purpose:  util support modules for extent calculations
#  Author:   Idan Miara, <idan@miara.com>
#
# ******************************************************************************
#  Copyright (c) 2020, Idan Miara <idan@miara.com>
#
# SPDX-License-Identifier: MIT
# ******************************************************************************
import math
import os
import tempfile
from enum import Enum
from numbers import Number
from typing import Dict, Optional, Sequence, Union

from osgeo import gdal
from osgeo_utils.auxiliary.rectangle import GeoRectangle


class Extent(Enum):
    IGNORE = 0
    FAIL = 1
    UNION = 2
    INTERSECT = 3


def parse_extent(extent: Union[str, Extent]) -> Extent:
    if isinstance(extent, str):
        return Extent[extent.upper()]
    elif isinstance(extent, Extent):
        return extent
    raise Exception("Error: Unknown extent %s" % extent)


class GT(Enum):
    SAME = -1
    ALMOST_SAME = -2
    COMPATIBLE_DIFF = -3
    INCOMPATIBLE_OFFSET = 0
    INCOMPATIBLE_PIXEL_SIZE = 1
    INCOMPATIBLE_ROTATION = 2
    NON_ZERO_ROTATION = 3


GeoTransform = Sequence[Number]


def gt_diff(
    gt0: GeoTransform,
    gt1: GeoTransform,
    diff_support: Dict[GT, bool],
    eps: Union[Number, Dict[GT, Number]] = 0.0,
):
    if gt0 == gt1:
        return GT.SAME
    if isinstance(eps, Number):
        eps = {
            GT.INCOMPATIBLE_OFFSET: eps,
            GT.INCOMPATIBLE_PIXEL_SIZE: eps,
            GT.INCOMPATIBLE_ROTATION: eps,
        }
    same = {
        GT.INCOMPATIBLE_OFFSET: eps[GT.INCOMPATIBLE_OFFSET]
        >= (abs(gt0[0] - gt1[0]) + abs(gt0[3] - gt1[3])),
        GT.INCOMPATIBLE_PIXEL_SIZE: eps[GT.INCOMPATIBLE_PIXEL_SIZE]
        >= (abs(gt0[1] - gt1[1]) + abs(gt0[5] - gt1[5])),
        GT.INCOMPATIBLE_ROTATION: eps[GT.INCOMPATIBLE_ROTATION]
        >= (abs(gt0[2] - gt1[2]) + abs(gt0[4] - gt1[4])),
        GT.NON_ZERO_ROTATION: gt0[2] == gt0[4] == gt1[2] == gt1[4] == 0,
    }
    if (
        same[GT.INCOMPATIBLE_OFFSET]
        and same[GT.INCOMPATIBLE_PIXEL_SIZE]
        and same[GT.INCOMPATIBLE_ROTATION]
    ):
        return GT.ALMOST_SAME
    for reason in same.keys():
        if not same[reason] and not diff_support[reason]:
            return reason  # incompatible gt, returns the reason
    return GT.COMPATIBLE_DIFF


def calc_geotransform_and_dimensions(
    geotransforms: Sequence[GeoTransform],
    dimensions,
    input_extent: Union[GeoRectangle, Extent] = None,
):
    # extents differ, but pixel size and rotation are the same.
    # we'll make a union or an intersection
    if geotransforms is None or len(geotransforms) != len(dimensions):
        raise Exception("Error! GeoTransforms and Dimensions have different lengths!")

    if isinstance(input_extent, GeoRectangle):
        gt = geotransforms[0]
        out_extent = input_extent.align(gt)
    elif isinstance(input_extent, Extent):
        out_extent: Optional[GeoRectangle] = None
        is_union = input_extent == Extent.UNION
        for gt, size in zip(geotransforms, dimensions):
            extent = GeoRectangle.from_geotransform_and_size(gt, size)
            out_extent = (
                extent
                if out_extent is None
                else out_extent.union(extent)
                if is_union
                else out_extent.intersect(extent)
            )
    else:
        raise Exception(f"Unknown input extent format {input_extent}")

    if out_extent is None or out_extent.is_empty():
        return None, None, None
    else:
        pixel_size = (gt[1], gt[5])
        pix_extent = out_extent.to_pixels(pixel_size)
        gt = (out_extent.left, gt[1], gt[2], out_extent.up, gt[4], gt[5])
    return gt, (math.ceil(pix_extent.w), math.ceil(pix_extent.h)), out_extent


def make_temp_vrt(ds, extent: GeoRectangle):
    options = gdal.BuildVRTOptions(
        outputBounds=(extent.min_x, extent.min_y, extent.max_x, extent.max_y)
    )
    tmp_fd, vrt_filename = tempfile.mkstemp(suffix=".vrt")
    vrt_ds = gdal.BuildVRT(vrt_filename, ds, options=options)
    os.close(tmp_fd)
    if vrt_ds is None:
        raise Exception("Error! cannot create vrt. Cannot proceed")
    return vrt_filename, vrt_ds
